Stable cell-like multisomes encapsulating the chemical oscillator Belousov-Zhabotinsky were engineered and organized in a linear network of diffusively-coupled chemical oscillators by using microfluidics. The multi-compartmentalization and the spatial configuration resulted in a new global synchronization scenario. After an initial induction interval, all the oscillators started to pulsate in phase with a halved period with respect to the natural one.
Budroni, M.A., Torbensen, K., Pantani, O.L., Ristori, S., Rossi, F., Abou-Hassan, A. (2020). Microfluidic compartmentalization of diffusively coupled oscillators in multisomes induces a novel synchronization scenario. CHEMICAL COMMUNICATIONS, 56(79), 11771-11774 [10.1039/d0cc05046f].
Microfluidic compartmentalization of diffusively coupled oscillators in multisomes induces a novel synchronization scenario
Rossi F.
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2020-01-01
Abstract
Stable cell-like multisomes encapsulating the chemical oscillator Belousov-Zhabotinsky were engineered and organized in a linear network of diffusively-coupled chemical oscillators by using microfluidics. The multi-compartmentalization and the spatial configuration resulted in a new global synchronization scenario. After an initial induction interval, all the oscillators started to pulsate in phase with a halved period with respect to the natural one.
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https://hdl.handle.net/11365/1119619